一种基于“四区”的低渗透油藏CO2埋存量计算方法及应用

doi:10.3969/j.issn.1006-6535.2024.03.010

特种油气藏 ›› 2024, Vol. 31 ›› Issue (3): 78-84.DOI: 10.3969/j.issn.1006-6535.2024.03.010

一种基于“四区”的低渗透油藏CO₂埋存量计算方法及应用

王香增¹, 陈小凡², 李剑¹, 陈芳萍¹, 范庆振², 王剑²

1.陕西延长石油(集团)有限责任公司,陕西西安 710075;
2.西南石油大学油气藏地质及开发工程全国重点实验室,四川成都 610500

收稿日期:2023-07-03 修回日期:2024-03-29 出版日期:2024-06-25 发布日期:2024-07-26
作者简介:王香增(1968—),男,教授级高级工程师,1989年毕业于西安石油学院矿场机械专业,2006年毕业于中国地质大学(北京)能源地质工程专业,获博士学位,现主要从事低渗油气田勘探开发方面的研究工作。
基金资助:
中国博士后科学基金面上项目“非常规致密气储层多分支井体积压裂多尺度流动耦合模型”(2019M650965)

A Calculation Method of CO₂ Storage Capacity in Low Permeability Reservoirs Based on "Four-zone" Method and Its Application

Wang Xiangzeng¹, Chen Xiaofan², Li Jian¹, Chen Fangping¹, Fan Qingzhen², Wang Jian²

1. Shaanxi Yanchang Petroleum (group)co., ltd., Xi′an Shaanxi 710075, China;
2. National Key Laboratory of Petroleum Reservoir Geology and Development Engineering, Southwest Petroleum University, Chengdu, Sichuan 610500, China

Received:2023-07-03 Revised:2024-03-29 Online:2024-06-25 Published:2024-07-26

摘要/Abstract

摘要： CO₂驱油和埋存能有效减少温室气体排放量达到碳中和目标,已有的CO₂埋存量计算方法主要针对CO₂的静态埋存量进行粗略计算,未考虑实际生产过程中CO₂埋存量的变化。针对上述问题,运用CO₂溶解、CO₂波及体积和驱油机理,将CO₂驱油与埋存过程分为气相区、两相或近混相区、扩散区和油相区,并基于“四区法”计算CO₂埋存量,得到了不同烃类的注入孔隙体积倍数、注入压力、注气速度下的CO₂动态埋存量的变化规律。将研究成果应用于W油田低渗储层,结果表明:注入烃类孔隙体积倍数、压力、注气速度与总埋存量呈正相关性,当压力由12 MPa升至30 MPa,CO₂埋存总量增加15.53×10⁴ t;当注气速度由5 t/d增加至30 t/d,峰值CO₂埋存总量由3.51×10⁴ t提高至12.62×10⁴ t。研究成果可为同类油藏开展CO₂驱油与埋存项目提供新的思路。

关键词: CCUS, CO₂埋存, “四区”法, 低渗储层

Abstract: CO₂ flooding and storage have the potential to significantly mitigate greenhouse gas emissions and contribute to achieving carbon neutrality objectives. Nevertheless, current methods for calculating CO₂ storage capacity primarily concentrate on rough estimates of static CO₂ storage, neglecting variations in CO₂ storage during actual production processes. In view of the above problems, the process of CO₂ flooding and storage is divided into gas phase zone, two-phase or near-miscible phase zone, diffusion zone and oil phase zone by using CO₂ dissolution, CO₂ swept volume and oil displacement mechanism. Based on the four-zone method, the CO₂ storage capacity is calculated, and the dynamic CO₂ storage capacity under varying hydrocarbon pore volume multiples, injection pressure and gas injection rate is obtained. The research results are applied to the low permeability reservoir of W oilfield. The results show that the pore volume multiple, pressure and gas injection rate of injected hydrocarbons are positively correlated with the total storage capacity. When the pressure increases from 12 MPa to 30 MPa, the total amount of CO₂ storage increases by 15.53×10⁴ t; when the gas injection rate increases from 5 t/d to 30 t/d, the total amount of peak CO₂ storage increases from 3.51×10⁴ t to 12.62×10⁴t. The research results can provide new ideas for the development of CO₂ flooding and storage projects in similar reservoirs.

Key words: CCUS, CO₂ storage, "four-zone" method, low permeability reservoir

中图分类号:

TE357.45

王香增, 陈小凡, 李剑, 陈芳萍, 范庆振, 王剑. 一种基于“四区”的低渗透油藏CO₂埋存量计算方法及应用[J]. 特种油气藏, 2024, 31(3): 78-84.

Wang Xiangzeng, Chen Xiaofan, Li Jian, Chen Fangping, Fan Qingzhen, Wang Jian. A Calculation Method of CO₂ Storage Capacity in Low Permeability Reservoirs Based on "Four-zone" Method and Its Application[J]. Special Oil & Gas Reservoirs, 2024, 31(3): 78-84.

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一种基于“四区”的低渗透油藏CO₂埋存量计算方法及应用

A Calculation Method of CO₂ Storage Capacity in Low Permeability Reservoirs Based on "Four-zone" Method and Its Application

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